Purpose: Saturated lights appear brighter than white lights of the same luminance. This is the Helmholtz-Kohlrausch (H-K) effect, and the phenomenon can be estimated by modeling achromatic luminance and saturation to total brightness. Current H-K effect models are different between women and men and are also more variable in women, which may be due to hormonal changes across the menstrual cycle (MC).
Methods: Total brightness (B) and achromatic luminance (L) were measured across blue, green, yellow-green, yellow, and red hues. These data were measured along with salivary hormone levels for nine cycling women and seven oral contraceptive (OC) users at points representing the menstrual, peri-ovulation, and luteal phases.
Results: Simple brightness/luminance (B/L) ratio estimates of the H-K effect did not differ by OC use or MC phase, but B/L ratios were higher for the red stimulus in cycling women than OC users during the luteal phase. Estrogen, progesterone, and their interaction predicted 18% of the variation in brightness for cycling women. For OC users, only estrogen could be fit to brightness models where it accounted for 5% of brightness variance.
Conclusion: These findings first provide clear support for separating cycling women from OC users, particularly when examining long-wavelength mechanisms. Next, the interaction of OC use and MC phase on B/L ratios for the red stimulus adds to a rich history of long-wavelength mechanisms. Lastly, the current result amends previous brightness models with multiple hormone terms for cycling women but not OC users.
Keywords: Contraception; Helmholtz–Kohlrausch Effect; Hormones; Luminance; Menstrual Cycle; Saturation; Brightness.
Copyright © 2024 Brian K. Foutch .